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Vol 240
Pages:
686
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RUS ENG
Oil and gas

Development of Scada-model for trunk gas pipeline's compressor station

Authors:
Yu. V. Ilyushin1
O. V. Afanaseva2
About authors
  • 1 — Saint-Petersburg Mining University
  • 2 — Saint-Petersburg Mining University
Date submitted:
2019-06-30
Date accepted:
2019-09-07
Date published:
2019-12-25

Abstract

Nowadays, at all levels of created automated control systems for technological processes, programmable technical means are used that require specific software within framework of necessary functional tasks. This software should include a set of software tools that communicate with technical devices and organize «human-machine interface» (HMI) in the form of application software for AWPs with assigned communication tasks for persons, responsible for management decision-making: operators, dispatchers, managers. However, hardware architecture is unique for each particular case, so it is necessary to refine or create a new control system. This is a rather laborious process. To simplify creation of such systems SCADA-systems are used. Article is devoted to development of SCADA-component for trunk gas pipeline's compressor workshop. Developed component allows tracking the characteristics of gas transportation process selected by operator. Development is based on «Windows» operating system and integrated environment TRACE MODE (SCADA/HMI).

10.31897/pmi.2019.6.686
Go to volume 240

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2. E R Gruzeva, E A Guseva. Using deceptive systems as data sources for a cyber-threat analysis platform. Journal of Physics: Conference Series. 2022, 2176, 012013, DOI: 10.1088/1742-6596/2176/1/012013 [crossref]
3. Anatoly Meshkov, Oleg Kazanin, Andrey Sidorenko. Methane Emission Control at the High-Productive Longwall Panels of the Yalevsky Coal Mine. E3S Web of Conferences. 2020, 174, 01040, DOI: 10.1051/e3sconf/202017401040 [crossref]
4. A A Sidorenko, D V Belova, Y G Sirenko. Justification for the parameters of extraction panels under the conditions of increased water inflows using computer models of rock mass. Journal of Physics: Conference Series. 2020, 1661, 012110, DOI: 10.1088/1742-6596/1661/1/012110 [crossref]
5. I M Pershin, T V Kukharova, V V Tsapleva. Designing of distributed systems of hydrolithosphere processes parameters control for the efficient extraction of hydromineral raw materials. Journal of Physics: Conference Series. 2021, 1728, 012017, DOI: 10.1088/1742-6596/1728/1/012017 [crossref]
6. Vadim Fetisov, Pavel Tcvetkov, Johannes Müller. Tariff approach to regulation of the European gas transportation system: Case of Nord Stream. Energy Reports. 2021, 7, 413, DOI: 10.1016/j.egyr.2021.08.023 [crossref]
7. Roystan Vijay Castelino, Pankaj Kumar, Yashwant Kashyap, Anabalagan Karthikeyan, Manjunatha Sharma K., Debabrata Karmakar, Panagiotis Kosmopoulos. Exploring the Potential of Kite-Based Wind Power Generation: An Emulation-Based Approach. Energies. 2023, 16, 5213, DOI: 10.3390/en16135213 [crossref]
8. Ivan M. Pershin, Elena G. Papush, Tatyana V. Kukharova, Vladimir A. Utkin. Modeling of Distributed Control System for Network of Mineral Water Wells. Water. 2023, 15, 2289, DOI: 10.3390/w15122289 [crossref]
9. Semen Gendler, Valeriy Kopachev, Stanislav Kovshov. Monitoring of compressed air losses in branched air flow networks of mining enterprises. Journal of Mining Institute. 2022, Online first, DOI: 10.31897/PMI.2022.8 [crossref]
10. Vadim Fetisov. Analysis of numerical modeling of steady-state modes of methane–hydrogen mixture transportation through a compressor station to reduce CO2 emissions. Scientific Reports. 2024, 14, DOI: 10.1038/s41598-024-61361-3 [crossref]
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Development of Scada-model for trunk gas pipeline's compressor station

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